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Penn Station's Missing Model

RPA identifies real constraints at Penn Station. Its April 2026 report does not provide the public operating model needed to turn those constraints into permanent track, platform, or expansion geometry.

Liam Blank · Updated June 8, 2026 · Analysis of federal design, procurement, and service-planning decisions.
Current federal program. USDOT and Amtrak selected Penn Transformation Partners as master developer on May 20, 2026. The announced program combines reconstruction of the existing station with expanded capacity, including "at least limited through-running." Design and permitting are moving ahead12 while the FRA Service Optimization Study remains unfinished and the operating definition of "limited through-running" has not been publicly defined.1011

The Regional Plan Association's April 2026 report, New York Penn Station: Constraints and Considerations for Meeting Future Demand, concludes that converting Penn Station entirely to revenue-to-revenue through-running inside the existing station footprint would reduce capacity. RPA calculates 66 trains per hour with today's platform arrangement and 63 trains per hour after widening platforms and removing nine tracks. Both fall below its 90-train benchmark. RPA builds that benchmark by adding 48 peak-direction trains from the west to 42 from the east, then concludes that station expansion or another system expansion is necessary.1

That conclusion rests on a narrow operating screen. RPA does not publish the train plan, dwell calibration, or sensitivity runs needed to test its assumptions. Its report evaluates two revenue-to-revenue through-running cases. The federal problem is broader: a rebuilt station with selective through-running, terminal service, and a staged fleet transition.

Amtrak and USDOT should not set Penn Station’s permanent geometry until a disclosed operating model shows what the station must do.
Exhibit 1 · RPA's own capacity figures The expansion conclusion follows from the selected benchmark and movement assumptions. The point is simple: RPA's tested cases do not reach the benchmark RPA selected. The public still needs to know whether that benchmark is the right design requirement.
Source: RPA, New York Penn Station: Constraints and Considerations for Meeting Future Demand, April 2026.1
Exhibit 2 · Inference chain RPA moves from approach capacity to a station-expansion conclusion without publishing the intermediate operating case.
Demand-derived service plan
Dwell and circulation calibration
Hybrid track and platform geometry
Reliability and yard simulation

The claim RPA asks the public to accept

RPA's report is strongest when it inventories Penn Station's real constraints. Narrow platforms matter. So do reverse-peak service and divided railroad control. Those constraints belong in any serious operating model.

The report then makes a larger claim than its published evidence can support. It tests revenue-to-revenue through-running under the current 17-track arrangement and under a 10-track wider-platform concept. The federal program points to a hybrid configuration instead. RPA's two screens show a shortfall against its own 90-train benchmark; they do not establish the geometry Penn Station requires.1

RPA describes its revenue-to-revenue dwell calculations as an "independent assessment" that may differ from other organizations' assumptions.1 That disclosure is important. A screening assumption can identify a risk. Irreversible geometry requires more: observed passenger behavior, rebuilt-station conditions, and a train graph the public can inspect.

The missing operating record

The report does not provide the materials needed to reproduce its result. The missing record includes the train plan, platform and track assignments, reverse-peak timetable, yard and non-revenue moves, dwell distributions, delay and recovery inputs, and the outputs of any simulation or calculation workbook.

The related agency record does not fill the gap. The October 2024 railroad feasibility study said that "recent detailed rail operations simulations" informed its practical capacity assumptions.2 In February 2026, Amtrak reported that its searches found no simulations or modeling data in its possession and stated that no simulations were performed for the work at issue.34 NJ TRANSIT separately certified that it held no responsive RTC model for the requested through-running analysis, although federal and railroad records show personnel discussing Penn-specific RTC work for the Service Optimization Study.5 The MTA withheld analytical models, technical assumptions, drafts, and analyses under the deliberative-process exemption.6

A consultant may have run a model. The public has not received the model, workbook, or train plan needed to reconcile the studies with the records responses.

The official planning record recognizes the operating logic of through-running. The MTA/WSP 2021 white paper and the May 2021 Community Advisory Committee briefing identify fewer turning conflicts and shorter platform occupation as potential benefits. They also identify the hard constraints: track loss from platform widening, recovery needs, and institutional control.78 The unresolved question is quantitative: how much useful capacity remains when a reconstruction model includes those constraints?

The arithmetic behind the conclusion

RPA organizes Penn Station operations around five movement types. That vocabulary matters because its capacity hierarchy follows from the dwell, clearance, and platform-use values RPA assigns to each movement.

Drop-and-go

A train arrives in passenger service, unloads, and continues empty to a yard. RPA also calls this revenue-to-non-revenue through-running.

Load-and-go

An empty train leaves a yard, enters Penn, boards passengers, and departs in revenue service. RPA calls this non-revenue-to-revenue through-running.

Revenue-to-revenue through-running

A passenger train arrives, exchanges passengers, and continues to another passenger destination.

Revenue-to-non-revenue turnback

A passenger train unloads, reverses, and leaves in the direction from which it entered without carrying passengers.

Revenue-to-revenue turnback

A passenger train unloads, boards a new passenger load, reverses, and leaves in the direction from which it entered.

Exhibit 3 · RPA dwell and clearance assumptions Selected passenger-exchange and platform-clearance values drive the through-running result. Each bar uses RPA's published components. The wider-platform case shortens passenger exchange but removes nine tracks, producing a lower station total despite a shorter occupation period.
Source: RPA, April 2026. RPA reports approximately 6 trains per track for drop-and-go, 5 for load-and-go, and 4 for existing-platform revenue-to-revenue through-running.1

RPA recognizes the strong AM/PM directional imbalance and reverses its boarding and alighting assumptions between the peaks. The missing step is the passenger-flow analysis that converts that asymmetry into fixed dwell and clearance values for a reconstructed station.

Exhibit 4 · Directional passenger demand Penn's peak passenger exchange is highly asymmetric. The 2019 baseline shows why boarding, alighting, platform clearance, and vertical circulation require separate modeling by time period and platform.
Source: MTA / Amtrak / NJ TRANSIT, Penn Station Master Plan Alternatives Report, Final, April 2022, Figure 3-18.9

The benchmark, reverse peak, and mixed service

RPA adds 48 peak-direction trains from the west to 42 from the east and treats 90 trains per hour as the station-capacity target.1 That number has a planning rationale: Gateway adds trans-Hudson capacity, and Penn Station Access adds eastern demand. The public report still does not show why summed tunnel capacity must become the scheduled station throughput in one peak hour.

Measure What it means What the design basis must show
Physical tunnel capacity The maximum train movements an approach can theoretically or practically pass. Signal headways, junction limits, and degraded-operation constraints.
Scheduled station throughput The trains actually planned through or into Penn in the design hour. Routes, stopping patterns, track assignments, and recovery margins.
Passenger capacity The riders carried by the selected train plan. Demand forecasts, train length, equipment capacity, and peak spreading.
Reliability-constrained capacity The service level that can operate without routine collapse under normal variability. Dwell distributions, dispatching rules, and recovery performance.

In practical terms, tunnel room is not the same as a workable Penn Station schedule. Before a benchmark fixes the station design, agencies should show the train plan and reliability margin that make the benchmark necessary.

The strongest official objection to broad through-running arises from the interaction among reverse-peak service, mixed intercity and commuter operations, platform allocation, and remaining peak-direction capacity. The 2024 feasibility study found that one full-reconstruction concept could pass track-geometry and fire-life-safety screens, yet fail once agencies preserve those service requirements.2

Exhibit 5 · Official failure logic The reverse-peak conclusion depends on a service-policy chain that the public cannot inspect.
The practical gap is the missing timetable. Without it, the public cannot tell which requirement fails, by how much, or whether another hybrid allocation changes the result.2

The untested hybrid

RPA tests the present platform arrangement and a wider-platform concept that removes nine tracks. Neither test answers the federal design question now before Amtrak and USDOT.

RPA's principal screens
  • Revenue-to-revenue through-running under today’s platform constraints.
  • A wider-platform case that removes nine tracks.
  • Comparison against a 90-tph tunnel-capacity benchmark.
The federal project must resolve
  • Selective through-running with continued terminal service.
  • Rebuilt platforms and circulation.
  • Fleet and yard phasing.

The federal base scope treats passenger circulation as a design variable. It includes platform renovation and a consolidated public concourse, with additional vertical circulation.10 The 2022 Master Plan likewise evaluated alternatives with materially larger public circulation areas. Those figures do not decide train capacity. They do show why today's passenger circulation cannot be frozen as the final operating condition.

Exhibit 6 · Reconstructed passenger circulation The official planning record treats circulation as changeable.
Source: MTA / Amtrak / NJ TRANSIT, Penn Station Master Plan Alternatives Report, Final, April 2022, "In Station Building Program Comparison."9

The 2010 Moynihan technical memorandum also found that platform-clearance performance varied by platform rather than failing uniformly across the station.13 It is a historical baseline, not a current survey. Its continuing value is methodological: the reconstruction requires a new platform-by-platform model, not a station-wide average carried forward as a permanent limit.

The connectivity substitution

RPA counts ten branches on each side of Penn Station, producing 100 possible branch-to-branch combinations. From that matrix, it argues that any one train is unlikely to serve a rider's desired pair. It illustrates the point with a Hempstead-to-Gladstone trip.1

This substitutes combinatorics for origin-destination analysis. Railroads build trunks around demand and line capacity, not random branch pairings. A credible plan may choose a few strong cross-core markets and keep timed transfers elsewhere. Counting every theoretical pairing misses that design choice.

Exhibit 7 · Connectivity test A 10-by-10 branch matrix does not substitute for market-based service planning.
Branch-count frame
  • Starts with every possible branch pair.
  • Treats low direct-pair probability as low network value.
  • Uses an arbitrary outlying pair as the representative rider test.
  • Omits origin-destination volumes and transfer penalties.
Demand-based trunk planning
  • Ranks actual cross-core and near-core travel markets.
  • Selects compatible branches and stopping patterns.
  • Preserves reliable transfers and terminal service where direct service is weak.
  • Tests travel time, ridership, and reliability.
The railroad feasibility study's appendix describes a more selective regional-metro concept using dedicated tracks and a limited set of branches, confirming that targeted service design belongs in the official planning record.2

Yards and implementation require a common comparison

RPA is right that through-running changes yard requirements. A short cross-core service may need layover or turnback capacity near its outer terminal. An integrated regional network also needs storage and recovery space.

The comparison is uneven. RPA presents peripheral yard acquisition as a visible burden of through-running while treating terminal-expansion storage as a background condition. Gateway planning has long included major storage facilities in New Jersey. The Penn South operating concept also assumed nearby storage.1415

Land and displacement

Acres acquired, businesses displaced, and environmental-justice impacts.

Capital and construction

Property cost, utility relocation, and staging complexity.

Operating movements

Deadhead mileage, tunnel slots, and crew time.

Reliability

Recovery capacity, access redundancy, and incident isolation.

Fleet and institutions

Equipment, power, labor, and accountable operating control.

Fleet and power constraints are substantial. Labor and governance may be harder still. They should be modeled as implementation choices, then compared with the delivery risks of a permanent terminal expansion.

The missing bridge between RPA’s earlier and current analyses

RPA's earlier plans associated through-running with different infrastructure, service, and fleet assumptions. Its April 2026 report reaches a different result for two within-footprint cases. Those positions may be reconcilable, but RPA has not published the technical bridge between them.

2008

RPA's ARC alternatives work published inputs and demand-model results. It revised its recommendation after reviewing those results and called for alternative capacity allocations for public modeling.18

2018

T-REX treated through-running as a capacity and connectivity strategy, but it was not a within-footprint plan. It assumed Penn South, more East River tunnel capacity, and a modernized regional-rail system.19

2020

The Case for Penn South argued that efficient through-running inside the existing station was unworkable without extensive reconstruction and supported future through-running through purpose-built expansion and added eastward capacity.16

2024-25

The proposal included through-running research and a proposed report that would describe full through-running as disruptive and Penn South as a way to achieve a form of through-running. The public record does not conclusively establish that the April 2026 report is the same deliverable.20

2026

The April 2026 report concludes that full through-running in the existing footprint would reduce capacity, based on two screening layouts and unpublished operating assumptions.1

That history matters only because RPA now asks the public to accept a different capacity result. The report should show whether the change comes from infrastructure assumptions, operating assumptions, or the narrow within-footprint cases it selected.

Advocacy context raises the disclosure standard

RPA leads the Build Gateway Now coalition. FOIA productions show that RPA administered Amtrak-funded coalition management and research.20 Funding records identify $1.825 million in Amtrak funding to RPA from FY2015 through FY2024, including restricted Gateway/Amtrak funding and Build Gateway Now payments.22 The 2024-25 Amtrak campaign proposal included through-running research and a proposed report in the funded work plan. It said that work would present full through-running as disruptive and Penn South as the practical path to a version of through-running.20

This funding history does not show that Amtrak dictated RPA's conclusion, nor does it establish that the conclusion is wrong. It does show that the report emerged from an advocacy relationship in which Amtrak funded RPA's Gateway coalition work and included through-running research in the work program. That relationship raises the disclosure standard for the report's decisive operating assumptions.

The operating record required before the design is fixed

Common scenariosTerminal expansion and selective through-running modeled under the same demand and reliability assumptions.
Demand-derived service plansTrain volumes tied to ridership, branch policy, and reverse-peak needs.
Dwell and geometry calibrationObserved passenger exchange, platform clearance, and assignments for each design case.
Reverse-peak and mixed-service testsLine-by-line schedules showing how intercity, suburban, and through services share the station.
Reliability and implementation accountingDelay, recovery, yard moves, and delivery risk for every alternative.
Public reproducibilityNative model files, input workbooks, and independent technical peer review.
Record Status on June 8, 2026 Why it matters
FRA Service Optimization Study Unreleased / unfinished Should establish the train-operating basis for final design.
Master developer operating alternatives Active design work Shows how "limited through-running" becomes tracks, platforms, routes, and phases.
Dwell and passenger-flow calibration Not public Determines whether RPA's fixed dwell assumptions remain applicable after reconstruction.
Reverse-peak and mixed-service sensitivities Not public Tests the strongest official objection to broader through-running.
Yard and non-revenue movement comparison Not public Lets the public compare terminal, hybrid, and through-running cases on the same basis.
Penn Expansion / southern annex decision Unsettled Determines whether later demolition and terminal expansion remain part of the federal program.

RPA documents real constraints at Penn Station. Agencies still need a public operating model before they design the federal reconstruction around RPA's capacity conclusion.

The agencies now face a different problem from the one RPA tested. They are advancing reconstruction with at least limited through-running. That requires a disclosed hybrid operating model before agencies set permanent geometry. If the Service Optimization Study cannot publish enough information to test the operating basis, agencies should not use it as public justification for the station's final geometry.

Sources

RPA reports and related materials

  1. Regional Plan Association, New York Penn Station: Constraints and Considerations for Meeting Future Demand, April 2026, Rachel Weinberger and Joshua Berman.
  2. Regional Plan Association, The Case for Penn South, February 2020.
  3. Regional Plan Association, 2008 ARC alternatives analysis comparing the base, loop, and Madison Avenue-extension concepts, including demand-model inputs and results.
  4. Regional Plan Association, T-REX regional rail plan, 2018.

Agency planning and project records

  1. Amtrak, MTA, and NJ TRANSIT, Doubling Trans-Hudson Train Capacity at New York Penn Station: Engineering Feasibility Study, October 2024, prepared by WSP and FXCollaborative.
  2. MTA / WSP, NY Penn Station Master Plan White Paper: Through-Running, Final, April 2021.
  3. Empire State Development / Partner Agencies, Through-Running at Empire Station Complex, Community Advisory Committee Working Group Briefing, May 18, 2021.
  4. MTA / Amtrak / NJ TRANSIT, Penn Station Master Plan Alternatives Report, Final, April 2022.
  5. Amtrak, New York Penn Station Transformation FAQ, master-developer procurement materials, RFLOI/RFP addenda, and technical baseline / minimum scope requirements, 2025-2026.
  6. USDOT and Amtrak, "Penn Transformation Partners Announced as Master Developer Team for New York Penn Station Renovation," May 20, 2026.
  7. USDOT, New York Penn Station Transformation schedule announcement, August 27, 2025.
  8. Empire State Development Corporation, Final Technical Memorandum for the Moynihan Station Development Project, June 2010, Section 13.
  9. NJ TRANSIT, Gateway Storage Yard and Maintenance Facility project documentation.
  10. Amtrak, Gateway System-Level Design Technical Memorandum, Penn South / Penn Station Integration, 2015.

Public-record productions

  1. Amtrak FOIA appeal determination, August 14, 2025, Case No. 25-FOI-00443.
  2. Amtrak FOIA response, February 9, 2026, Case No. 26-FOI-00272.
  3. NJ TRANSIT OPRA certified response, July 17, 2025, tracking reference 250717-889312, and later public-record productions concerning Penn-focused RTC and Service Optimization Study materials.
  4. Metropolitan Transportation Authority FOIL response, April 30, 2026, Request R009324-062325.
  5. Amtrak FOIA productions concerning Build Gateway Now scopes, contract modifications, invoices, and communications. Record index.
  6. "Amtrak Funding to RPA: Fiscal Years 2015-2024," funding summary compiled from RPA annual reports, audited financial statements, Form 990 filings, and ProPublica Nonprofit Explorer records.

This report evaluates RPA's published operating case and the public agency record available as of June 8, 2026. Agencies still need to publish the simulation record and technical peer review before they lock in permanent Penn Station geometry.